Simulation Predicts Clumps of Dark Matter Within Galaxies

A team of researchers has simulated the gravitational interaction of dark matter particles over the course of a hypothetical 13.7 billion years. They found that the particles tended to form clumps large enough to assist in the formation of galaxies. The results contradicted observations from previous, smaller studies, but they lent support to an unrelated simulation of how the Milky Way formed. UCSC's press release is also available. Quoting ScienceNews: "The clumps of dark matter in the simulation have densities that are remarkably similar to densities that a University of California, Irvine research group found when simulating the formation of the Milky Way and its satellite dwarf galaxies, says James Bullock, the astrophysicist who leads the UC-Irvine group and was not involved in the new study. 'This is a remarkable success of the particular model simulated and adds strong support to the idea that the dark matter is made up of particles that are "cold." There are a number of planned experiments aimed at detecting the dark matter that are betting on it being cold, so this is generally good news for the community,' Bullock says. And, [study co-author Piero Madau] notes, larger simulations that might help constrain the nature of dark matter even more are already in the works."

Re:Where's the evidence?

[Hektor_Troy]

Say with MOND, why are we so scared to think that perhaps Newtonian mechanics aren't quite enough to calculate with on galactic scales?

It's not about being scared - it's about the scope of that theory. Using "stuff falls down" as a theory of gravity works, but only in very specific situations. It's not something you can use as a usable replacement for any of the accepted theories, like GR and Newton.

Talking about scientists being scared of MOND is silly. Especially when you bring in Newtonian mechanics, which have long since been proven to fail in a large number of ways. The reason we still use Newtonian mechanics is that it's "good enough" for most things. Just like "stuff falls down" works great here on Earth, but not so well inside the ISS.